Treatment of iatrogenic femoral artery pseudoaneurysms using ultrasound-guided injection of thrombin

Ultrasound-Guided Fibrin Glue Injection for Treatment of Iatrogenic Femoral Pseudoaneurysms

Introduction:

Arterial pseudoaneurysms (PSAs) are the most common access site complication following transarterial catheter intervention. Ultrasound-guided injection of thrombogenic substances into perfused arterial PSAs followed by compression therapy is a well-established and less invasive treatment option than surgical repair. Different agents are available to induce thrombosis including thrombin and a fibrin-based tissue glue, which is used as first-line treatment at our institution. This paper deals with our experience using ultrasound-guided fibrin glue injection (UGFI).

Materials and Methods:

Retrospective data analysis: all patients (55) treated for iatrogenic femoral PSA following digital subtraction angiography of the lower extremities between January 1, 2010, and December 31, 2018, were included. Data on epidemiology, PSA location and size, vascular risk factors, fibrin glue injection (fibrin glue volume), primary success rate of UFGI, and complications related to the treatment were analyzed.

Results:

A total of 55 consecutive femoral iatrogenic PSAs were treated during the defined period and 32 (58.2%) of the patients were female. Imaging was performed using ultrasound in all cases. The most common PSA location (80.0%) was the common femoral artery, mean PSA size (± SD) was 2.7 ± 1.2 cm, and neck length was 1.6 ± 1.0 cm. The dose (mean ± SD) of fibrin glue was 2.6 mL (± 1.0; maximum: 6 mL). Primary UGFI success rate was 87.3% and conversion rate to open surgery was 12.7%. Two (4%) patients required embolectomy for peripheral embolization after UGFI.

Conclusion:

Early results achieved with UGFI for treatment of iatrogenic femoral PSA are promising. In our cohort, UGFI was a safe and effective first-line alternative to traditional open surgery, which then was unnecessary in the vast majority of PSA cases. Further prospective studies for comparison of ultrasound-guided techniques should be encouraged.

Ultrasound-guided thrombin injection versus ultrasound-guided compression repair in the treatment of post-catheterization femoral artery pseudoaneurysm: King Saud University Medical Center Experience

Background

This study aims to evaluate the effectiveness of ultrasound-guided thrombin injection versus ultrasound-guided compression repair in the management of iatrogenic femoral artery pseudoaneurysms.

Methods

Between June 2006 and December 2015, a total of 29 consecutive patients (15 males, 14 females; mean age 54 years; range 26 to 81 years) with a femoral pseudoaneurysm treated by ultrasound-guided thrombin injection were retrospectively analyzed. These patients were compared with a historical group of 36 patients (21 males, 15 females; mean age 44 years; range 32 to 65 years) who underwent ultrasound-guided compression repair between February 1999 and May 2006. Medical records and vascular laboratory findings of all patients were reviewed. Successful treatment was defined as complete cessation of flow into the false lumen with preservation of flow in the femoral artery.

Results

The ultrasound-guided thrombin injection showed a success rate of 100%, whereas ultrasound-guided compression repair had a success rate of 80.5%, which was possibly affected by anticoagulant therapy, hypertension, and an aneurysm size of >6 cm. However, none of these factors did not affect the success of thrombin injections.

Conclusion

Ultrasound-guided thrombin injection is a highly successful, easy to perform, accepted, and well-tolerated method by patients. It is more effective compared to compression therapy in patients with hypertension, large aneurysms, and who are on anticoagulant therapy.

Comparison of Ultrasound-Guided Thrombin Injection of Iatrogenic Pseudoaneurysms Based on Neck Dimension

BACKGROUND

Ultrasound-guided thrombin injection (UGTI) of femoral artery pseudoaneurysms after endovascular procedures is an effective therapy. There is controversy in the literature regarding injecting pseudoaneurysms with short and/or wide necks. This article reports our experience in UGTI of pseudoaneurysms in 1 hospital regarding the efficacy of this treatment in all pseudoaneurysms regardless of the size of the necks.

METHODS

A retrospective review of 46 patients diagnosed between 2011 and 2016 with groin pseudoaneurysms using established duplex ultrasound criteria. Mean age was 68 years (range 27-87). Ten pseudoaneurysms thrombosed spontaneously, 5 were thrombosed by ultrasound-guided compression, and 2 were treated surgically due to disqualifying criteria. In this retrospective review, we analyzed the remaining 29 pseudoaneurysms regarding the dimensions of their neck lengths and outcomes after attempting thrombin injection.

RESULTS

The mean aneurysm neck length and width were 1.03 ± 0.9 cm and 0.30 ± 0.1 cm, respectively. All 29 patients were evaluated with respect to pseudoaneurysm size, neck length, neck width, and complexity. Successful treatment of 29 pseudoaneurysms (2 external iliac, 20 common femoral, 2 deep femoral, and 5 superficial femoral) with UGTI was achieved without complications in 100% of the cases, regardless of pseudoaneurysm size, neck dimensions, or complexity. Anticoagulation status did not affect the efficacy of the procedure. Nine of the 29 pseudoaneurysms (31.0%) had neck length less than 0.5 cm.

CONCLUSIONS

This study demonstrates the safety and efficacy of UGTI in treating iatrogenic pseudoaneurysm in 29 of 29 patients, even in patients with pseudoaneurysm with short neck lengths. Our experiences support injecting all pseudoaneurysms irrespective of dimension.

Interventional radiology in the diagnosis, management, and follow-up of pseudoaneurysms

Arterial wall disruption, as a consequence of inflammation/infection, trauma (penetrating or blunt), or iatrogenic causes, may result in pseudoaneurysm formation. Currently, iatrogenic causes are increasing as a result of the growth of endovascular intervention. The frequency of other causes also seems to be increasing, but this may simply be the result of increased diagnosis by better imaging techniques, such as multidetector contrast-enhanced computed tomography. Clinically, pseudoaneurysms may be silent, may present with local or systemic signs, or can rupture with catastrophic consequences. Open surgical repair, previously the mainstay of treatment, has largely been replaced by image-guided occlusion methods. On the basis of an experience of over 100 pseudoaneurysms, treatments at various anatomical sites, imaging modalities used for accurate diagnosis, current changing therapeutic options for pseudoaneurysm management, approved embolization agents, and clinical follow-up requirements to ensure adequate treatment will be discussed. Image-guided direct percutaneous and endovascular embolization of pseudoaneurysms are established treatment options with favorable success rates and minimal morbidity. The pendulum has now swung from invasive surgical repair of pseudoaneurysms to that of image-guided interventional radiology.

Postcatheterization pseudoaneurysm: results of US-guided percutaneous thrombin injection in 240 patients

PURPOSE

To prospectively evaluate ultrasonographically (US) guided percutaneous thrombin injection for treatment of femoral artery and brachial artery pseudoaneurysms.

MATERIALS AND METHODS

The university institutional review board approved the study. Informed consent was obtained from all patients. Two hundred forty patients with postcatheterization femoral artery (n = 132) or brachial artery (n = 8) pseudoaneurysms were treated with US-guided bovine thrombin (1.000 IU/mL) injection. At diagnosis, 107 (44.6%) patients received anticoagulation therapy; 159 (66.2%), antiplatelet therapy; and 76 (31.7%), both therapies. Pseudoaneurysm size, length and width of pseudoaneurysm neck, thrombin dose, therapy outcome, and complications were documented. The peak blood flow in peripheral arteries was determined before and after thrombin injection. Follow-up duplex US was performed 12-24 hours, 5-7 days, and 21-25 days after treatment. A nonpaired t test was used to compare differences in age between the male and female patients. Two-way analysis of covariance was performed to analyze the influences of factors that may have been related to the amount of thrombin used.

RESULTS

Mean pseudoaneurysm volume was 4.69 cm3 +/- 5.49 (standard deviation). Simple and complex pseudoaneurysms were treated in 165 and 75 patients, respectively. A total of 260 thrombin injections were performed: 1.04 injections per patient with a simple pseudoaneurysm and 1.17 injections per patient with a complex pseudoaneurysm. The mean injected thrombin dose was 425.31 IU +/- 341.75 for all pseudoaneurysms, 382.12 IU +/- 281.00 for simple pseudoaneurysms only, and 520.33 IU +/- 434.64 for complex pseudoaneurysms only. There was only a computational correlation between pseudoaneurysm size and thrombin dose (r2 = 0.07). The primary success rate was 93.8% overall, 95.8% for simple pseudoaneurysms, and 89% for complex pseudoaneurysms. The secondary success rate was 99.6% overall, 100% for simple pseudoaneurysms, and 99% for complex pseudoaneurysms. Early (at < or =24 hours) reperfusion occurred in one simple and five complex pseudoaneurysms. Four late reperfusions-two in simple and two in complex pseudoaneurysms-were detected at 1-week follow-up; no late reperfusions were detected at 3 weeks. Thromboembolic complications occurred in two patients and resolved spontaneously. One mild allergic reaction and no infections occurred.

CONCLUSION

US-guided percutaneous thrombin injection enables successful, safe management of postcatheterization pseudoaneurysms.

[Treatment of postcatheterization femoral false aneurysms]

The incidence of iatrogenic femoral false aneurysms has risen dramatically in recent years and is estimated at 0,5% for diagnostic procedures and may rise to 9% or more for therapeutic procedures. This increased incidence is related to the increased number of arterial punctures performed for diagnostic or therapeutic purposes and their major complexity and duration. Risk factors for the development of iatrogenic false aneurysms include operator inexperience, age greater than 60, female gender, catheter size greater than 8F and concurrent anticoagulation. Prevention of false aneurysms is based upon an atraumatic arterial puncture, good compression therapy after sheath removal and use of percutaneous arterial closure devices. Contrarily to the arterial lesions following severe injuries, the natural course of false aneurysms is quite benign with spontaneous occlusion in the majority of cases. Therefore, a mandatory surgical approach is no longer advocated and alternative therapeutic options have been proposed. These include sonographic surveillance, compression ultrasonography, percutaneous thrombin or coil embolization. Surgery is still clearly indicated in presence of local nervous or venous compression, associated homolateral lower limb ischemia, great size of the aneurysm, and unsuccessful non-invasive treatment. Sonographic surveillance has shown to be safe in hospitalized or ambulatory patients. However, fear of aneurysm rupture and cost of repeated ultrasonographic exams preclude widespread utilisation. Compression ultrasonography is safe and effectiveness varies between 70 and 100%, according to studies. Compression ultrasonography may be painful, has often to be associated with mild analgesia, is time consuming and less effective in presence of concurrent anticoagulation. Thrombin injection seems particularly effective, is painless and has a limited rate of complications in expert hands. Severe anaphylactic reactions and severe coagulopathy in reexposed patients have been described and represent clear contra-indications to thrombin injection. Coil embolization of the false aneurysm is as effective as thrombin injection and is reported in a limited number of patients. There is no formal consensus about treatment of the vast majority of non-surgical false aneurysms. In an absence of stringent indication to surgical approach, compression ultrasonography may be used first as it is widely available, and does not require highly specialized skills. Compression therapy should be done after a transient interruption of anticoagulant treatment, if allowed by clinical context. If compression therapy fails, percutaneous injection of thrombin or coil embolization are effective and associated with a low complication rate. However, these techniques are less widely available and necessitate an experienced operator. As recurrences have been described with each of these techniques, every non-surgically-treated false aneurysm should be monitored for 24 hour with ultrasonography control to ensure effective thrombosis.

Transluminal Occlusion of a Pseudoaneurysm Arising from a Thoracic Aortic Graft Patch Using Catheter Delivery of Thrombin

A 39-year-old man with Marfan syndrome underwent replacement of the aortic valve, root, and ascending aorta for acute type A dissection. Subsequently, he underwent infrarenal aortic replacement for aortic rupture and then graft repair of a thoracoabdominal aneurysm with patch-bearing intercostals. After the third procedure, massive intraperitoneal hemorrhage required three subsequent laparotomies. CT scan showed two thoracic aortic pseudoaneurysms at the patch-graft junction that were sequentially embolized with transcatheter delivery of thrombin.

Femoral pseudoaneurysms: management with percutaneous thrombin injections--success rates and effects on systemic coagulation

PURPOSE

To determine the success rate of percutaneous ultrasonographically (US) guided thrombin injection in the treatment of femoral pseudoaneurysms and to evaluate the effects of thrombin injection on systemic coagulation parameters.

MATERIALS AND METHODS

Fifty femoral pseudoaneurysms (37 simple pseudoaneurysms with one lobe and 13 complex pseudoaneurysms with two or three lobes) were treated with US-guided percutaneous thrombin injections. Pseudoaneurysm size, neck length and width, thrombin dose, outcome of therapy, and complications were documented prospectively. Duplex sonographic follow-up examinations were performed at 12-24 hours and 5-7 and 21-25 days. In 25 patients, activated thromboplastin time, Quick test (prothrombin time), thrombin time, fibrinogen, D-dimer, antithrombin III, thrombin-antithrombin III complex, and prothrombin fragments 1 and 2 were determined before and at 2, 5, and 10 minutes after thrombin injection. Differences in results before and those after thrombin injection were evaluated by means of the one-sample t test.

RESULTS

Mean volume of pseudoaneurysms was 5.84 cm(3) +/- 4.89 (SD). Fifty-eight thrombin injections were performed. Mean thrombin dose was 357 IU +/- 291 in simple and 638 IU +/- 549 in complex pseudoaneurysms. Primary success rate was 36 of 37 (97%) for simple and eight of 13 (61%) for complex pseudoaneurysms. Reperfusion occurred in four complex pseudoaneurysms (none in simple ones). Secondary success rate was 100%. No thromboembolic, infectious, or allergic complications occurred. During follow-up, reperfusion was detected in one patient with a complex pseudoaneurysm. Levels of thrombin-antithrombin III complex increased significantly (P <.05) after thrombin injection, whereas changes in all other laboratory tests were not significant.

CONCLUSION

US-guided percutaneous injection of thrombin is successful and safe in the management of femoral pseudoaneurysms. The increase of thrombin-antithrombin III complex indicates the possibility of thrombin passage into the arterial circulation.

Treatment of iatrogenic femoral artery false aneurysms with ultrasound-guided thrombin injection

The aim of this paper is to review our results of treating iatrogenic pseudoaneurysms of the femoral artery with ultrasound-guided thrombin injection. A retrospective review was carried out of all patients referred for this procedure over a 1-year period from December 1999 to December 2000. Forty-five patients were referred and, of these, 44 were eligible for this treatment, with 300-2500 units of thrombin being injected directly into the false aneurysms under ultrasound guidance. The procedure was well tolerated with no patients requiring sedation or analgesia. There was a primary success rate of 95%, although in four of the patients, there was recurrence on repeat ultrasound performed 2-5 days post-procedure and a second injection of thrombin was required for permanent thrombosis to be achieved. No complications relating to the procedure occurred. Our results confirm increasing evidence in the published research that thrombin injection of femoral artery false aneurysms is a safe and effective treatment.

Lumbar artery pseudoaneurysm following renal biopsy: treatment with ultrasound-guided thrombin injection

latrogenic pseudoaneurysms are usually seen following arterial catheterization. However, we describe a case of a 23-year-old woman who developed a pseudoaneurysm of a lumbar artery following renal biopsy. In view of her progressing renal failure, arterial embolization was felt to be inappropriate, and although the pseudoaneurysm could be seen ultrasonically, guided compression could not be applied because of the location of the aneurysm deep to the lumbar musculature. Hence, the pseudoaneurysm was thrombosed by percutaneous ultrasound-guided injection of thrombin directly into the pseudoaneurysm sac. This resulted in immediate thrombosis of the aneurysm and no recurrence on follow-up imaging. Thrombin injection for femoral artery pseudoaneurysms following catheterization is becoming more widely accepted, and our case demonstrates that this technique might be applied to pseudoaneurysms elsewhere in the body.

Postcatheterization pseudoaneurysms: new developments in the diagnosis and treatment with ultrasound

Postcatheterization pseudoaneurysms are an increasingly common complication of endovascular procedures. Ultrasound (US) is essential in diagnosis and in playing the key role in the noninvasive treatment of such pseudoaneurysms. The past decade has seen a shift from surgical management to US-guided therapy initially using manual compression. Recently, the minimally invasive technique of percutaneous thrombin injection has been described as an alternative to US-guided compression. This review article discusses the cause and natural history of pseudoaneurysms and describes the technique of US-guided thrombin injection.

Percutaneous treatment of pseudoaneurysms using fibrin adhesive

This study was performed to assess the safety and efficacy of treatment of iatrogenic pseudoaneurysms with fibrin adhesive. 28 patients with iatrogenic pseudoaneurysms were treated. The first 20 patients had either at least one previously unsuccessful treatment of ultrasound guided compression repair (UGCR), a contraindication to UGCR or could not tolerate the procedure. Diagnosis was confirmed on ultrasound and angiography and a balloon inflated across the neck of the pseudoaneurysm. Fibrin adhesive was injected under ultrasound control directly into the pseudoaneurysm sac. The balloon was deflated after 15 min and check ultrasound and angiography performed, with a further ultrasound at 24 h. The subsequent eight patients underwent embolisation as the first line treatment without use of a protective balloon. 16 of the first 20 patients (80%) and all of the subsequent 8 patients had successful embolisation of the pseudoaneurysm after a single treatment. Two pseudoaneurysms failed to thrombose despite two treatments in one case and three treatments in the other, and both required surgery. The only significant complication was the development of local cellulitis in one patient. In conclusion, embolisation of iatrogenic aneurysms with fibrin adhesive is a safe and effective treatment. It should be considered as an alternative to surgery and UGCR.